Interdependencies between housing, energy and wellbeing – ‘A tale of two cities’
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Transcript of Interdependencies between housing, energy and wellbeing – ‘A tale of two cities’
Interdependencies Between Housing, Energy and Wellbeing
‘PURGE’ is a collaborative project funded by the EC’s 7th Framework Programme under GA No. 265325.
‘A Tale of Two Cities’
Clive Shrubsole Research Associate (Healthy Buildings)
UCL Institute of Environmental Design and Engineering Complex Built Environment Systems Group (CBES) University College London
UCL Institute for Environmental Design & Engineering
Using the SCRIBE tool we:
Modelled the current housing stock of London and Milton Keynes
Devised a number of future scenarios with varying combinations of housing energy retrofit measures and degrees of energy supply decarbonisation
Investigated the comparative impacts of dwelling-related CO2 reduction strategies on occupant health
UCL Institute for Environmental Design & Engineering
The Scenarios
Two future approaches for UK electricity provision were considered against Three potential levels of energy efficiency interventions
• Business as usual (BAU) no decarbonisation of the electricity grid
Scenario 1: Energy efficiency (draft proofing, double glazing with trickle vents, extract fans, cavity wall filling, solid wall insulation & loft insulation)
Scenario 2: Energy efficiency PLUS (above measures + heating focused interventions i.e. condensing boilers and central heating)
• Accelerated decarbonisation of the electricity grid
Scenario 3: Low carbon supply as scenario 1 measures + major decarbonisation of the electricity grid
Scenarios based on the UK Energy Research Centre (UKERC) scenarios which informed predictions from the 4th Carbon Budget report published in 2010 by the UK Committee on Climate Change (CCC 2010). The baseline 2010 figure for carbon intensity is based upon calculated totals for centralised electricity generation from the digest of UK energy statistics DUKES (2011).
Future Carbon Intensity of the Electricity Grid
UCL Institute for Environmental Design & Engineering
Scenario
% reduction in CO2 emissions from housing stock 2010–2050
London Milton Keynes
BAU: No electric grid decarbonisation
Scenario 1: Energy efficiency –50% –34%
Scenario 2: Energy efficiency plus –56% –42%
Aggressive electric grid decarbonisation
Scenario 3*: Energy efficiency –97% –96%
Results:
• Possible energy efficiency gains in housing vary substantially between different locations.
• Aggressive decarbonisation of the electric grid and/or additional ‘high-tech high-spec’ interventions are needed to achieving CO2 emissions reduction targets.
UCL Institute for Environmental Design & Engineering
Scenario
Modelled change in life years over 40 years from 2010-2050
London Milton Keynes
With Purpose Provided Ventilation (PPV)
Scenarios 1 and 3 849,800 21,200
Scenario 2 856,500 21,400
Without Purpose Provided Ventilation (PPV)
Scenarios 1 and 3 –1,043,900 –13,800
Scenario 2 –1,041,000 –13,700
Health impacts changes in life years are shown over 40 years for each city population for each scenario (– indicates life years lost)
• Including PPV in a refurbishment scheme has a substantial +ve health impact – without it, there are large increases in exposure to pollutants derived from indoor sources.
• This increase more than offsets the benefits of improved indoor heating season temperatures and protection against outdoor air pollution, resulting in substantial -ve impacts on health overall in both settings. Consequently: CO2 reductions are made at the expense of human health
Results:
UCL Institute for Environmental Design & Engineering
• Combining ‘simple’ home refurbishments with electric grid decarbonisation can achieve carbon reduction targets in locations with very different stock profiles, whilst minimising future health risks, e.g. indoor overheating and poor indoor air quality were PPV is included in the scheme.
Key Take-Home Message:
Policymakers
Consider a greater emphasis on electric grid decarbonisation policies and reduction of gas use in the domestic sector when planning CO2 reduction budgets.
Ensure ventilation is a clear element in refurbishment legislation.
Collate and provide access to sources of data on good practice in energy refurbishment.
Researchers
Investigate pre- and post- retrofit homes to provide empirical data sets on practices and examples of both positive changes in indoor air quality and negative practice to feed back into policy.
Architects / Retrofit Providers
When designing new homes, incorporate adequate ventilation and cooling strategies to ensure good indoor air quality early in the design process.
When retrofitting existing homes, take account of the changes in ventilation that are likely to occur when energy efficiency measures are applied.
Take account of the particular dwelling and the occupancy patterns to avoid ‘one-size-fits-all’ solutions.
Investigate and specify / offer components using sustainable/renewable sources of energy.
UCL Institute for Environmental Design & Engineering
Thank you for your attention
Clive Shrubsole Research Associate
T: +44 (0) 207 679 9111 M: +44 (0) 7952 470613 [email protected]